{"cells":[{"cell_type":"markdown","metadata":{"id":"USaorKo7DP9B"},"source":["# Base"]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":85525,"status":"ok","timestamp":1662649476293,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"gr2Cj9rxQ_NT","outputId":"3f7f61be-7b4e-408b-d8ff-c648db5aa11f"},"outputs":[],"source":["import os\n","import torch\n","import torch.nn as nn\n","import torch.optim as optim\n","from torch.utils.data import Dataset\n","import matplotlib.pyplot as plt \n","import numpy as np\n","import random\n","import json\n","import seaborn as sns\n","from tqdm import tqdm"]},{"cell_type":"code","execution_count":null,"metadata":{},"outputs":[],"source":["DIR_DATA=\"/content/data/Dataset/\" #Path where your dataset (training) files are stored, this folder contains WESADECG_S2.json,WESADECG_S3.json,...WESADECG_Sk.json files\n","DIR_NET_SAVING=\"/content/data/Testing/net/\" #Path where model's weights are saved for each training\n","DIR_DATA_TEST=\"/content/data/Testing/\" # Path to your file that contains subject test folder (S17 for my case). eg : DIR_TESTING_FOLDER=/content/data/Testing/\n","SUBJECT_USED_FOR_TESTING = \"S17\""]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":260,"status":"ok","timestamp":1662654370451,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"tD21rCOk06Zx","outputId":"b172ea09-50d8-4548-a7fe-244d47a6879c"},"outputs":[],"source":["manualSeed=1\n","torch.manual_seed(manualSeed)\n","random.seed(manualSeed)\n","np.random.seed(manualSeed)\n","g = torch.Generator()\n","g.manual_seed(manualSeed)"]},{"cell_type":"markdown","metadata":{"id":"o4lE6XdnkRCt"},"source":["# Functions"]},{"cell_type":"code","execution_count":3,"metadata":{"executionInfo":{"elapsed":244,"status":"ok","timestamp":1662652451549,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"emSxBk7ikS5m"},"outputs":[],"source":["def suppr(dic):\n","  bornemax=np.quantile(dic[\"features\"],0.99,axis=0)\n","  bornemin=np.quantile(dic[\"features\"],0.01,axis=0)\n","  indicesmauvais=np.where(np.sum(np.add(bornemin>np.array(dic[\"features\"]),np.array(dic[\"features\"])>bornemax),axis=1)>0)[0]\n","  k=0\n","  for i in indicesmauvais:\n","    del dic[\"features\"][i-k]\n","    del dic[\"label\"][i-k]\n","    k+=1\n","  return dic\n","\n","def extract_ds_from_dict(data):\n","  Letat=[]\n","  for i in range(0,4):\n","    dictio={}\n","    features=[data[\"features\"][j] for j in np.where(np.array(data[\"label\"])==i+1)[0]] \n","    label=[data[\"label\"][j] for j in np.where(np.array(data[\"label\"])==i+1)[0]]\n","    dictio[\"features\"]=features\n","    dictio[\"label\"]=label\n","    Letat.append(dictio.copy())\n","  neutr=Letat[0]\n","  stress=Letat[1]\n","  amu=Letat[2]\n","  med=Letat[3]\n","  neutr=suppr(neutr)\n","  stress=suppr(stress)\n","  amu=suppr(amu)\n","  med=suppr(med)\n","  features=[]\n","  label=[]\n","  dict_id={}\n","  for m in range(0,4):\n","    dictio=Letat[m]\n","    features+=[x for x in dictio[\"features\"]] \n","    label+=[x for x in dictio[\"label\"]]\n","  dict_id[\"features\"]=features\n","  dict_id[\"label\"]=label\n","  return dict_id.copy()   #retourne une liste avec tt\n","\n","def conf_mat(net,datal,trsh):\n","  x=datal[0].float().to(device)\n","  y=net(x).view(-1)\n","  pred=(y>trsh).int()\n","  label=datal[1].float().to(device).view(-1).int()\n","  num=datal[2].float().to(device).int()\n","  comp=torch.eq(label,pred).int()\n","  mat_label=np.zeros((2,4))\n","  mat_nolbl=np.zeros((2,2))\n","  for i in range(0,4):\n","    tens=torch.where(num==i+1,1,0)\n","    numtot=torch.sum(tens).item()\n","    num_G=torch.sum(torch.where(torch.mul(tens,comp)==1,1,0)).item()\n","    if i ==1:\n","      mat_nolbl[0,0]+=num_G\n","      mat_nolbl[1,0]+=numtot-num_G\n","      mat_label[0,i]=num_G\n","      mat_label[1,i]=numtot-num_G\n","    else:\n","      mat_nolbl[1,1]+=num_G\n","      mat_nolbl[0,1]+=numtot-num_G\n","      mat_label[1,i]=num_G\n","      mat_label[0,i]=numtot-num_G\n","  return mat_label,mat_nolbl\n","\n","def fusion_dic(list_dic):\n","  features=[]\n","  label=[]\n","  dic_f={}\n","  for dic in list_dic:\n","    features+=dic[\"features\"]\n","    label+=dic[\"label\"]\n","  dic_f[\"features\"]=features\n","  dic_f[\"label\"]=label\n","  return dic_f\n","\n","def proportion(dic, indice, prop):\n","  tot=len(indice)\n","  features=[dic[\"features\"][j] for j in indice[::int(np.ceil(tot/prop))]]\n","  label=[dic[\"label\"][j] for j in indice[::int(np.ceil(tot/prop))]]\n","  return features,label\n","\n","def eq_dic(dic):\n","  indice_neutr=np.where(np.array(dic[\"label\"])==1)[0]\n","  indice_stress=np.where(np.array(dic[\"label\"])==2)[0]\n","  indice_amu=np.where(np.array(dic[\"label\"])==3)[0]\n","  indice_med=np.where(np.array(dic[\"label\"])==4)[0]\n","  nbr_neutr=len(indice_neutr)\n","  nbr_stress=len(indice_stress)\n","  nbr_amu=len(indice_amu)\n","  nbr_med=len(indice_med)\n","  prop=min([3*nbr_neutr,nbr_stress,3*nbr_amu,3*nbr_med])\n","  prop_stress=prop\n","  prop_neutr=int(0.333*prop)\n","  prop_amu=int(0.333*prop)\n","  prop_med=int(0.333*prop)\n","  features=[]\n","  label=[]\n","  dic_f={}\n","  tempf,templ=proportion(dic,indice_neutr,prop_neutr)\n","  features+=tempf\n","  label+=templ\n","  tempf,templ=proportion(dic,indice_stress,prop_stress)\n","  features+=tempf\n","  label+=templ\n","  tempf,templ=proportion(dic,indice_amu,prop_amu)\n","  features+=tempf\n","  label+=templ\n","  tempf,templ=proportion(dic,indice_med,prop_med)\n","  features+=tempf\n","  label+=templ\n","  dic_f[\"features\"]=features\n","  dic_f[\"label\"]=label\n","  return dic_f"]},{"cell_type":"markdown","metadata":{"id":"88CdoUVQrpaA"},"source":["# DS creation kfold"]},{"cell_type":"code","execution_count":4,"metadata":{"executionInfo":{"elapsed":269,"status":"ok","timestamp":1662652455279,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"UNrIGSslSwbF"},"outputs":[],"source":["class ds_wesad(Dataset):\n","    def __init__(self, dic):\n","        self.samples = []\n","        self.dic=dic\n","        for i in range(0,len(dic[\"label\"])):\n","            num=dic[\"label\"][i]\n","            stress=num==2\n","            x=np.array(dic[\"features\"][i])\n","            self.samples.append((x,int(stress),num))\n","\n","    def __len__(self):\n","        return len(self.samples)\n","\n","    def __getitem__(self, id):\n","        return self.samples[id]"]},{"cell_type":"code","execution_count":10,"metadata":{"executionInfo":{"elapsed":684,"status":"ok","timestamp":1662652641841,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"b4IOf8QSykqB"},"outputs":[],"source":["\"\"\"Handles the cross validation process, generates the multiple training and validation data dictionnaries for the cross validation\"\"\"\n","\n","\n","name_list= ['WESADECG_S2.json', 'WESADECG_S3.json', 'WESADECG_S4.json', 'WESADECG_S5.json', 'WESADECG_S6.json', 'WESADECG_S7.json',\n"," 'WESADECG_S8.json', 'WESADECG_S9.json', 'WESADECG_S10.json', 'WESADECG_S11.json', 'WESADECG_S13.json', 'WESADECG_S14.json',\n"," 'WESADECG_S15.json', 'WESADECG_S16.json']\n","\n","#assert (len(name_list)==14)  ONE Subject for testing S17\n","list_dic_ds=[]\n","cntr=0\n","\n","L=[]\n","for i in range(0,len(name_list)):\n","    f=open(DIR_DATA+name_list[i])\n","    data = json.load(f)\n","    dic=eq_dic(data)\n","    L.append(dic)\n","dic_merge = fusion_dic(L)\n","dic_training=extract_ds_from_dict(dic_merge)\n","ds_training=ds_wesad(dic_training)"]},{"cell_type":"code","execution_count":13,"metadata":{"executionInfo":{"elapsed":262,"status":"ok","timestamp":1662652668441,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"pXi9BUzeMZ0I"},"outputs":[],"source":["os.chdir(\"/content/data/Testing\")\n","name= 'WESADECG_{}.json'.format(SUBJECT_USED_FOR_TESTING)\n","f=open(DIR_DATA_TEST+name)\n","data = json.load(f)\n","ds_test = ds_wesad(data)"]},{"cell_type":"markdown","metadata":{"id":"VZVLgHmjVhGa"},"source":["# Model"]},{"cell_type":"code","execution_count":17,"metadata":{"executionInfo":{"elapsed":253,"status":"ok","timestamp":1662654385865,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"PN7Ya-GyVgDe"},"outputs":[],"source":["from torch.nn.modules.activation import LeakyReLU\n","\"\"\" DNN Model \"\"\"\n","\n","def init_weight(m):\n","    \"\"\"Initialization of the weights\"\"\"\n","    if isinstance(m,nn.Linear):\n","        nn.init.xavier_uniform_(m.weight)\n","        m.bias.data.fill_(0.01)\n","    if isinstance(m, nn.BatchNorm1d):\n","        m.weight.data.fill_(1)\n","        m.bias.data.zero_() \n","\n","class ClassifierECG(nn.Module):\n","    \"\"\"DNN model, see the model architecture in the report for more details\"\"\"\n","    def __init__(self, ngpu):\n","        super(ClassifierECG, self).__init__()\n","        self.ngpu = ngpu\n","        self.nnECG = nn.Sequential(\n","            nn.Linear(12,128,bias=True),\n","            nn.BatchNorm1d(128),\n","            nn.Dropout(0.5),\n","            nn.LeakyReLU(0.2),\n","            nn.Linear(128,64,bias=True),\n","            nn.BatchNorm1d(64),\n","            nn.Dropout(0.5),\n","            nn.LeakyReLU(0.2),\n","            nn.Linear(64,16,bias=True),\n","            nn.BatchNorm1d(16),\n","            nn.Dropout(0.5),\n","            nn.LeakyReLU(0.2),\n","            nn.Linear(16,4,bias=True),\n","            nn.BatchNorm1d(4),\n","            nn.Dropout(0.5),\n","            nn.LeakyReLU(0.2),\n","            nn.Linear(4,1,bias=True),\n","            nn.Sigmoid()\n","        )\n","        self.nnECG.apply(init_weight)\n","\n","    def forward(self, input):\n","        return self.nnECG(input)"]},{"cell_type":"markdown","metadata":{"id":"rJ20BRfxq9ME"},"source":["# Training"]},{"cell_type":"code","execution_count":19,"metadata":{"executionInfo":{"elapsed":257,"status":"ok","timestamp":1662655078091,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"3XLm855B9g_p"},"outputs":[],"source":["def training(net,dataloader_t,dataloader_v,num_epochs,j,k):\n","  \"\"\" Training with a BCELoss on the dataset, for each epoch the net weights are saved and the mean error is computed to plot the loss\n","  for training and valdiation dataset\n","  \"\"\"\n","  Loss = []\n","  Lossv= []\n","  for epoch in range(num_epochs):\n","      L_t=[]\n","      L_v=[]\n","      for i, dataj in enumerate(dataloader_t, 0):\n","          net.zero_grad()\n","          x=dataj[0].float().to(device)\n","          yhat=dataj[1].float().to(device)\n","          yhat=yhat.view(-1,1)\n","          y=net(x)\n","          err_t=nn.BCELoss()(y.float(),yhat.float())\n","          err_t.backward()\n","          optimizer.step()\n","          L_t.append(err_t.item())\n","      for i, dataj in enumerate(dataloader_v, 0):\n","        net.eval()     \n","        x=dataj[0].float().to(device)\n","        yhat=dataj[1].float().to(device)\n","        yhat=yhat.view(-1,1)\n","        y=net(x)\n","        err_v=nn.BCELoss()(y.float(),yhat.float())\n","        L_v.append(err_v.item())\n","      err=np.mean(L_t)\n","      errv=np.mean(L_v)\n","      Loss.append(err)\n","      Lossv.append(errv)\n","      torch.save(net.state_dict(), DIR_NET_SAVING+\"net_\"+str(j)+\"_\"+str(k)+\"_epoch_\"+str(epoch)+\".pth\")\n","  return [Lossv,np.argmin(Lossv)]"]},{"cell_type":"code","execution_count":18,"metadata":{"executionInfo":{"elapsed":239,"status":"ok","timestamp":1662654729386,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"p1swnhoPWDsD"},"outputs":[],"source":["def seed_worker(worker_id):\n","    worker_seed = torch.initial_seed() % 2**32\n","    np.random.seed(worker_seed)\n","    random.seed(worker_seed)\n","\n","num_workers = 2\n","batch_size = 32\n","ngpu = 1\n","device = torch.device(\"cuda:0\" if (torch.cuda.is_available() and ngpu > 0) else \"cpu\") "]},{"cell_type":"code","execution_count":null,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":41931,"status":"ok","timestamp":1662655181552,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"dXTz0x-Hhd-Q","outputId":"b0b42beb-d24c-40ef-a57d-bbe402bd4c4d"},"outputs":[],"source":["net= ClassifierECG(ngpu).to(\"cuda\")\n","lr=0.0001\n","beta1=0.9\n","optimizer = optim.Adam(net.parameters(), lr=lr, betas=(beta1, 0.999))\n","dataloader_t = torch.utils.data.DataLoader(ds_training,batch_size=batch_size,shuffle=True,num_workers=num_workers,worker_init_fn=seed_worker,generator=g, drop_last=True)\n","dataloader_test = torch.utils.data.DataLoader(ds_test,batch_size=batch_size,shuffle=True,num_workers=num_workers,worker_init_fn=seed_worker,generator=g, drop_last=True)\n","Lossv,argmin=training(net,dataloader_t,dataloader_test,10,0,0)"]},{"cell_type":"markdown","metadata":{},"source":["# Results"]},{"cell_type":"code","execution_count":24,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":283},"executionInfo":{"elapsed":358,"status":"ok","timestamp":1662655908463,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"nTAlh7toA3Pk","outputId":"a0380fa4-2618-4a70-a559-2628dadd1470"},"outputs":[{"data":{"text/plain":["[<matplotlib.lines.Line2D at 0x7f00662bfe10>]"]},"execution_count":24,"metadata":{},"output_type":"execute_result"},{"data":{"image/png":"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","text/plain":["<Figure size 432x288 with 1 Axes>"]},"metadata":{"needs_background":"light"},"output_type":"display_data"}],"source":["plt.plot(Lossv)"]},{"cell_type":"code","execution_count":25,"metadata":{"colab":{"base_uri":"https://localhost:8080/"},"executionInfo":{"elapsed":247,"status":"ok","timestamp":1662655990940,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"OV_v7Rov-QOM","outputId":"17ffbec7-c605-4415-bb18-a90b5065c1da"},"outputs":[{"data":{"text/plain":["<All keys matched successfully>"]},"execution_count":25,"metadata":{},"output_type":"execute_result"}],"source":["net.load_state_dict(torch.load(DIR_NET_SAVING+\"net_0_0_epoch_{}.pth\".format(argmin)))"]},{"cell_type":"code","execution_count":56,"metadata":{"colab":{"base_uri":"https://localhost:8080/","height":603},"executionInfo":{"elapsed":1674,"status":"ok","timestamp":1662657595901,"user":{"displayName":"Edouard .C","userId":"07320798258634684264"},"user_tz":-120},"id":"_u0X9t2yWV_H","outputId":"b10788c6-4783-4eb2-f4f0-910cce7d85ad"},"outputs":[{"name":"stdout","output_type":"stream","text":["accuracy 0.9614583333333333\n","precision 0.8617683686176837\n","recall 1.0\n","F1score 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size 2376x648 with 4 Axes>"]},"metadata":{},"output_type":"display_data"}],"source":["# Results\n","Loss = []\n","trsh=0.5\n","net.eval()\n","confusionlabel=np.zeros((2,4))\n","confusion=np.zeros((2,2))\n","length_ds=0\n","for i, datal in enumerate(dataloader_test, 0):\n","      confusionlabelt,confusiont=conf_mat(datal,trsh)\n","      confusion+=confusiont\n","      confusionlabel+=confusionlabelt\n","      length_ds+=batch_size\n","x_axis_confl = ['neutral','stress','amusement','meditation'] # labels for x-axis\n","y_axis_confl = ['stress','no stress'] # labels for y-axis\n","x_axis_conf = ['stress','no stress']\n","y_axis_conf = ['stress','no stress']\n","\n","# create seabvorn heatmap with required labels\n","confusion_annot=np.array([str(x) for x in np.round(100*confusion/length_ds,3).reshape(-1).tolist()]).reshape(confusion.shape)\n","confusionlabel_annot=np.array([str(x) for x in np.round(100*confusionlabel/length_ds,3).reshape(-1).tolist()]).reshape(confusionlabel.shape)\n","sns.set(rc={\"figure.figsize\":(15, 5)})\n","fig, axs = plt.subplots(ncols=2,figsize=(33,9))\n","sns.heatmap((100*confusion/length_ds), xticklabels=x_axis_conf, yticklabels=y_axis_conf,annot=confusion_annot,ax=axs[0],fmt = '')\n","axs[0].set_xlabel('Ground Truth')\n","axs[0].set_ylabel('Prediction')\n","sns.heatmap((100*confusionlabel/length_ds), xticklabels=x_axis_confl, yticklabels=y_axis_confl, annot=confusionlabel_annot,ax=axs[1],fmt = '')\n","axs[1].set_xlabel('Ground Truth')\n","axs[1].set_ylabel('Prediction')\n","TP=confusion[0,0]\n","TN=confusion[1,1]\n","FN=confusion[1,0]\n","FP=confusion[0,1]\n","acc=(TP+TN)/(TP+FP+FN+TN)\n","precision=TP/(TP+FP)\n","recall=TP/(TP+FN)\n","F1score=(2*recall*precision)/(recall+precision)\n","print(\"accuracy \" +str(acc))\n","print(\"precision \" +str(precision))\n","print(\"recall \" +str(recall))\n","print(\"F1score \"+str(F1score))"]}],"metadata":{"accelerator":"GPU","colab":{"authorship_tag":"ABX9TyPJrUQdTC8jRAoXukVvmiwi","collapsed_sections":["USaorKo7DP9B","88CdoUVQrpaA","VZVLgHmjVhGa"],"machine_shape":"hm","provenance":[{"file_id":"1ld2p47ZTErsIlGf9WxpENlxS5g3G6Nea","timestamp":1645823451673},{"file_id":"16DbLIaJKMKs6INHP1tJ_d7p_rPw2OXjP","timestamp":1645764498495},{"file_id":"1qTsAzF2xab3lOSky0DXfIoUUiqD1UHWF","timestamp":1645763189709}]},"kernelspec":{"display_name":"Python 3.9.7 64-bit","language":"python","name":"python3"},"language_info":{"name":"python","version":"3.9.7"},"vscode":{"interpreter":{"hash":"acb408c112aa627a318ac6bee697c54a21dc0d988d17c05deacc60f98e48531a"}}},"nbformat":4,"nbformat_minor":0}
